个人简介

教育背景 1996-03--1999-04 中国科学院自然资源综合考察委员会 博士 1990-09--1993-07 西南师范大学生物系 硕士 1986-09--1990-07 西南师范大学生物系 学士 学历 中国科学院自然资源综合考察委员会 -- 研究生 学位 中国科学院自然资源综合考察委员会 -- 博士 出国学习工作 2004年 瑞士巴塞尔大学植物研究所高级访问学者 2008年 美国俄克拉荷马州立大学高级研究学者 工作经历 1999-04--今 中国科学院地理科学与资源研究所 副研究员、研究员 1993-07--1996-02 中国科学院成都生物研究所 助理研究员 教授课程 生物地理与宏系统生态学 高级森林生态学 生态学 专利与奖励 2015年西藏自治区科学技术奖一等奖(排名第四) 奖励信息 （1） 藏北高寒草地生态系统变化分析与退化草地综合治理技术, 一等奖, 省级, 2015 （2） 中国科学院王宽诚西部学者突出贡献奖, , 部委级, 2012 （3） 青藏高原青年科学奖, , 专项, 2007

研究领域

1. 在植物生理生态学方面主要研究高海拔植物的生理生态适应、高山树线形成机理及其对气候变化的响 2. 在生态系统生态学方面主要开展青藏高原主要生态系统的碳/氮循环过程、生物多样性与生态系统功能的研究 3. 高原退化生态系统评价及恢复

高原生态学

近期论文

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1)Zong, N., Song, M., Shi, P., Jiang, J., Zhang, X. & Shen, Z. 2014. Timing patterns of nitrogen application alter plant production and CO2 efflux in an alpine meadow on the Tibetan Plateau, China. Pedobiologia 57, 263-269. 2)Wu, J.S., Shen, Z.X., Shi, P.L., Zhou, Y.T. & Zhang, X.Z. 2014. Effects of Grazing Exclusion on Plant Functional Group Diversity of Alpine Grasslands along a Precipitation Gradient on the Northern Tibetan Plateau. Arctic, Antarctic and Alpine Research 46, 419-429. 3)Jiang, J., Shi, P., Zong, N., Fu, G., Shen, Z., Zhang, X. & Song, M. 2014. Climatic patterns modulate ecosystem and soil respiration responses to fertilization in an alpine meadow on the Tibetan Plateau, China. Ecological Research, 1-11. 4)He, Y., Xu, X., Kueffer, C., Zhang, X. & Shi, P. 2014. Leaf litter of a dominant cushion plant shifts nitrogen mineralization to immobilization at high but not low temperature in an alpine meadow. Plant and Soil 383, 415-426. 5)Zong, N., Shi, P., Jiang, J., Song, M., Xiong, D., Ma, W., Fu, G., Zhang, X. & Shen, Z. 2013. Responses of ecosystem CO2 fluxes to short-term experimental warming and nitrogen enrichment in an alpine meadow, northern Tibet Plateau. The Scientific World Journal , http://dx.doi.org/10.1155/2013/415318. 6)Wu, J., Zhang, X., Shen, Z., Shi, P., Xu, X. & Li, X. 2013. Grazing-Exclusion Effects on Aboveground Biomass and Water-Use Efficiency of Alpine Grasslands on the Northern Tibetan Plateau. Rangeland Ecology & Management 66, 454-461. 7)Jiang, J., Zong, N., Song, M., Shi, P., Ma, W., Fu, G., Shen, Z., Zhang, X. & Ouyang, H. 2013. Responses of ecosystem respiration and its components to fertilization in an alpine meadow on the Tibetan Plateau. European Journal of Soil Biology 56, 101-106. 8)Fujimura, S., Shi, P., Iwama, K., Zhang, X., Gopal, J. & Jitsuyama, Y. 2010. Effect of Altitude on the Response of Net Photosynthetic Rate to Carbon Dioxide Increase by Spring Wheat. Plant Prod. Sci. 13, 141-149. 9)Ma, W., Shi, P., Li, W., He, Y., Zhang, X., Shen, Z. & Chai, S. 2010. Changes in individual plant traits and biomass allocation in alpine meadow with elevation variation on the Qinghai-Tibetan Plateau. Science China Life Sciences 53, 1142-1151. 10)Shi P, Körner Ch., Hoch G. 2008. A test of the growth-limitation theory for alpine treeline formation in evergreen- and deciduous taxa of the Eastern Himalayas. Functional Ecology, 22: 213-220. 11)Li M., Xiao W., Shi P., et al. 2008. Nitrogen and carbon source–sink relationships in trees at the Himalayan treelines compared with lower elevations. Plant, Cell and Environment 31: 1377-1387. 12)Xu L., Zhang X., Shi P., et al. 2007. Modeling the maximum apparent quantum use efficiency of alpine meadow ecosystem on the Tibetan Plateau. Ecological Modelling, 208: 129-134. 13)Shi P., Zhang X., Zhong Z., et al. 2006. Diurnal and seasonal variability of soil CO2 efflux in a cropland ecosystem on the Tibetan Plateau. Agricultural and Forest Meteorology 137 (3-4): 220-233. 14)Shi P., Körner Ch., Hoch G. 2006. End of season carbon supply status of woody species near the treeline in western China. Basic and Applied Ecology 7 (4): 370-377. 15)Shi P., Sun X., Xu L., et al. 2006. Net ecosystem CO2 exchange and controlling factors in a steppe-Kobresia meadow on the Tibetan Plateau. Science in China, Ser. D Earth Sciences, 49(Supp II): 207-218. 16)Sun S., Jin D., Shi P. 2006. The leaf size-twig size spectrum of temperate woody species along an altitudinal gradient: An invariant allometric scaling relationship. Annals of Botany (London) 97 (1): 97-107.